Solve Apps: Conic Sections in Polar Coordinates
-Halley's Comet Has $\mathrm { r } = \frac { 10.82 } { 1 + 0.891 \sin \theta }$

Solve Apps: Conic Sections in Polar Coordinates
-Halley's comet has an elliptical orbit with the sun at one focus. Its orbit shown below is given approximately by $\mathrm { r } = \frac { 10.82 } { 1 + 0.891 \sin \theta }$ . In the formula, $\mathrm { r }$ is measured in astronomical units. (One astronomical unit is the average distance from Earth to the sun, approximately 93 million miles.)
Find the distance from Halley's comet to the sun at its greatest distance from the sun. Round to the nearest hundredth of an astronomical unit and the nearest million miles.

A) $99.27$ astronomical units; 9232 million miles
B) $5.72$ astronomical units; 532 million miles
C) $12.14$ astronomical units; 1129 million miles
D) $6.07$ astronomical units; 565 million miles

Correct Answer:

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